DE3908661A1 - METHOD FOR PRODUCING SODIUM ALUMINATE - Google Patents

Abstract

Sodium aluminate of the general formula NaAlO2, NaAlO2 x 1.5 H2O and/or NaAlO2 x XH2O is prepared by reaction of hydrated aluminum and/or aluminium hydride with an excess of sodium hydroxide. In this process, first a suspension of the reactants is prepared in a mixing vessel at temperatures of 20 to 120 DEG C and this suspension is passed under pressure through at least one heatable reaction tube connected to the mixing vessel and the sodium aluminate solution obtained is subjected to spray-drying, in which gas outlet temperature of the gas used for the spray-drying is brought to 130 to 190 DEG C.

Description

The present invention relates to a process for the preparation of sodium aluminate of the general formula NaAlO ₂ , NaAlO ₂ × 1.5 H ₂ O and / or NaAlO ₂ × XH ₂ O by reacting aluminum oxide hydrate and / or aluminum hydroxide with an excess of sodium hydroxide and below Maintaining an Al: Na weight ratio of 1: 1.03 to 1: 1.50, preferably 1: 1.05 to 1: 1.30, using an aqueous sodium hydroxide solution with an NaOH content of 25 to 55% by weight. %, preferably 35 to 51% by weight, after the reaction the mixture is dewatered by spray drying with the use of heated gases or vapors as the heat transfer medium. The inven tion further relates to a device for in particular continuous implementation of the method.

From DE-AS 25 37 969 a method for the produc- tion of sodium aluminate from an aluminate solution by drying at a higher temperature is known. The aluminate solution with a concentration of caustic Na ₂ O of 45 to 350 g / l and a molecular ratio of caustic Na ₂ O to Al ₂ O ₃ of 1.1 to 1.8 is at a concentration between 250 and 350 g / l dewatered on caustic Na ₂ O by vacuum drying or evaporation in multi-stage evaporation plants and then subjected to fluidized bed drying at a temperature of 250 to 400 ° C. The sodium aluminate solutions used here are those which are obtained by leaching bauxites in the extraction of clay earth. Furthermore, if these solutions are evaporated before the fluidized bed drying, it cannot be avoided that crust formation occurs on the vessel walls, which leads to blockage of the valves and lines.

In DE-PS 28 19 004, a process for the production of free-flowing alkali aluminates from their aqueous solutions which have a concentration of alkali oxide of 1 to 6 mol / l and a molar ratio of alkali oxide to Al ₂ O ₃ <1, by Dewatering described using a drying process. The aluminate solutions, which additionally contain 0.1 to 5.0% by weight of low or high molecular organic polyhydroxy compounds as stabilizers, are subjected to atomization drying using hot gases or vapors as the heat transfer medium. As can be seen from the examples, the aluminate solutions are cloudy and must be filtered before spray drying, since there is evidently crystallization during storage. The entire process is carried out batchwise, not continuously.

The present invention is based on the object a process for the production of sodium aluminate and an apparatus for performing this method to provide the disadvantages of the State of the art does not have to clear  perform stabilizer-free aluminate solutions that Atomization and fluid bed drying without incrustation the atomizer nozzles are finely divided, free-flowing and extremely reactive product, whereby by the special training of the atomizer disc and its special arrangement in the atomization drying container no caking occurs on the dryer wall should. The overall process should be preferred can be carried out continuously and also be simple and energetically favorable.

The object is achieved in that in a mixing vessel, preferably in a heatable one Premix container with stirring a suspension of aluminum minium oxide hydrate and / or aluminum hydroxide in one Excess sodium hydroxide at temperatures of 20 to 120 ° C, preferably 30 to 80 ° C, prepared is, this suspension then to implement the Reactants by at least one with the Mixing vessel, preferably a heated pre-mixing container directly or indirectly connected, heated Re action tube passed under pressure and the obtained Sodium aluminate solution for spray drying and is thrown out, the gas outlet or steam temperature of the atomization drying used gas to a temperature of 130 to 190 ° C, preferably from 140 to 170 ° C, is set.

The reaction tube is advantageously heated to a temperature from 100 to 160 ° C, preferably 115 to 140 ° C put and the sodium aluminate solution before Zer Dust drying to a temperature below yours Cooled boiling temperature, preferably by 2 to 15 ° C. cooled below the boiling temperature.  

The reaction tube can be double-walled for the flow of liquid heating medium or single-walled, with an outer Ren provided electric heating jacket, trained be. It can be from a straight tube or a wen exist in the shape of a tube, the length and the clear width of the reaction tube chosen so who that not only an economical production the sodium aluminate solution takes place, but a weitge ensured sales of the reactants is. The throughput of the reaction is preferably mixture and / or the sodium aluminate solution formed through the reaction tube more than 0.015 kg / min preferably more than 0.5 kg / min.

The residence time of the reaction mixture is advantageous in the reaction tube greater than 10 s, preferably greater than 20 s.

The pressure to be maintained in the reaction tube is expediently 1.5 to 10 bar, preferably 2 to 5 bar. This pressure is caused by an inert gas pressure or Air pressure in the closed mixing vessel, preferably two se nitrogen gas pressure and / or by a printer increase, preferably by at least one between Mixing vessel and reaction tube arranged pressure pump set.

According to a preferred embodiment of the Invention According to the method, the spray drying is before preferably sputtering drying, with a Post-drying, preferably fluid bed drying, combi or the fluidized bed drying of the atomization drying, preferably sputtering drying, downstream, with the fluid bed drying at a  Temperature (depending on the desired drying degree) of over 170 ° C, preferably over 190 ° C, is carried out.

According to an expedient embodiment, the Implementation of the reactants and / or the Zer Dust drying without the use of additional and / or Stabilizers.

It has proven to be advantageous if through the Zer used in sputtering drying dust disk the sodium aluminate solution formed in an angle of less than 65 ° (based on the Ro axis of rotation and measured from the axis of rotation) atomized and using a hot air stromes, which is ring-shaped or helical around the Atomizer disk is guided to the bottom of the container, ver swirls and is dried.

According to an expedient embodiment of the invention according to the procedure, care is taken that by maintaining an increased blowing speed the hot air or the hot inert gas through which edge, bead or ring-shaped profiling of the zer dust disc, by increasing the distance of the Side wall of the atomizer disc and through the Increased distance of the atomizer disc from the container terboden less than 30 wt .-%, preferably less than 20 wt .-%, which emerges from the atomizer disc tendency sodium aluminates (calculated as solid) the side wall of the container or drying container hit.

It has proven particularly advantageous if  when carrying out the method according to the invention by using the atomizer drying atomized the sodium aluminate solution in an angle of 25 to 140 °, preferably 35 to 80 ° (in relation to the axis of rotation at an angle of 90 ° arranged rotation plane) is thrown away, using an atomizer disc, the one has bead or ring-like edge profiling and Outlet openings or atomizer openings on one curved or profiled inner surface in the edge or in the inner surface of the beaded or ring-shaped edge profiling, and if by sharing a dry gas flow or hot air flow the ge spun and sprayed sodium aluminate solutions deflected from the side wall of the drying container or largely distracted and swirled at the same time be, the distance of the side wall of the dry container from the atomizer disc larger than half the radius of the atomizer disc, preferably is larger than the radius of the atomizer disc.

The atomizer drying is preferably carried out at 15,000 revolutions of the atomizing disc up to 25,000 UmP, preferably 17,000 to 20,000 UmP, carried out.

The device according to the invention for the production of sodium aluminate with the use of an atomizer dryer, through which sodium aluminate is atomized and dried, preferably for carrying out the process according to the invention, consists of a mixing vessel ( 1 ), preferably a heatable, with stirrer and feed lines for the reactants Ver premixing container, at least one indirectly or directly connected to the premixing container, preferably helical and double-walled reaction tube ( 2 ) and at least one atomizing and a downstream dryer.

The mixing container is useful as a pressure container trained and with supply lines for the inert gas supply provided and with the start of the reaction tube immediately connected.

According to a special embodiment of the device, a pressure pump ( 3 ) is arranged in the reaction tube, preferably between the bottom of the mixing container and the beginning of the reaction tube.

The atomizing dryer is advantageous immediately or via a pipe with the reaction tube end connected and / or a cooling device before the Zer dust drying device and / or its reaction pipe end arranged.

According to another embodiment, the dressing gown is ner, preferably fluidized bed dryer or Fluid bed dryer, after the atomizing dryer switches.

Advantageously, the use in the spray dryer nebulizer disc at an angle of 25 to 140 °, preferably 35 to 80 ° (based on the Rotation axis arranged at an angle of 90 ° tion level), arranged edge and / or a bead or ring-like edge profiling on and off openings or atomizer openings of the  Atomizer disc are on the domed or professional gelled inner surface in the edge or inner surface of the bead and / or annular edge profiling arranged net.

According to an advantageous embodiment, between the beginning of the reaction tube and the bottom of the mixing vessel or a Rohrlei the mixing vessel outlet or the pressure pump Connection for the introduction of inert gas and / or Air arranged.

According to the appropriate embodiment is in the atomization Exercise dryer or atomizing dryer container min at least one connection for hot air or hot inert gas, preferably arranged in the upper container area.  

In the accompanying Figures 1 and 2 are preferred. Shown embodiments of the device according to the invention. Here mean:

1 mixing vessel
2 reaction tube
3 pressure pump.

In Fig. 1, the mixing vessel 1 is pressurized ausgebil det and provided in its upper part with an Intertgaszu for the purpose of adjusting the required pressure in the reaction tube 2 . Between the beginning of the reaction tube and the mixing vessel outlet, a pipeline connection for introducing additional inert gas is seen before.

In Fig. 2, the mixing vessel is in a non-pressure-resistant embodiment and is connected with the interposition of a pressure pump 3 with the reaction tube 2 . Between the beginning of the reaction tube and the pressure pump 3 , a pipe connection is provided for a line of inert gas.

Embodiment

In a 50 liter mixing vessel ( 1 ) 39.0 kg of 50% sodium hydroxide solution and then 33.7 kg of moist aluminum hydroxide (61.6% in Al ₂ O ₃ ) were filled with vigorous stirring and at a temperature of 30 ° C mixed together to form a suspension.

With a pressure of 2 bar, this sodium hydroxide-aluminum hydroxide suspension was pressed through a heated reaction tube ( 2 ) 18 m long and 6 mm clear diameter and a temperature of 125 ° C. The flow rate was set at 1.1 kg per minute. The aluminate solution obtained at the end of the reaction tube was clear and had a temperature of 120 ° C. This aluminate solution was immediately entered into an atomizing dryer which had the atomizer disk according to the invention and at an angle of 60 ° (based on the reaction plane and measured from the axis of rotation) with the use of a hot air dryer which was helical around the atomizer disk Container bottom was atomized. Drying was carried out under the following conditions:

Air inlet temperature 290 ° C,
Air outlet temperature 155 ° C.

A product was obtained which contained 24.1% Al and 73.2% Contained sodium aluminate and 19.3% water.

The drying of the aluminate immediately in the An conclude the spray drying in a flow bed dryer at 240 ° C resulted in a fine, rie selectable product with 28.8% Al or 87.5%  Sodium aluminate, 3.4% water and a bulk density of 0.6 kg / l.

Claims (20)

1. Process for the preparation of sodium aluminate of the general formula NaAlO ₂ , NaAlO ₂ × 1.5 H ₂ O and / or NaAlO ₂ × XH ₂ O by reacting aluminum oxide hydrate and / or aluminum hydroxide with an excess of sodium hydroxide and while maintaining a weight ratio Al: Na from 1: 1.03 to 1: 1.50, preferably
1: 1.05 to 1: 1.30, using an aqueous sodium hydroxide solution with an NaOH content of 25 to 55% by weight, preferably
35 to 51 wt .-%, wherein after the reaction of the Ge mixture by spray drying using heated gases or vapors as heat transfer medium, characterized in that in a mixing vessel, preferably in a heatable premixing container, with stirring Suspen sion of alumina hydrate and / or aluminum hydroxide in an excess of sodium hydroxide at temperatures of 20 to 120 ° C, preferably 30 to 80 ° C, is prepared, this suspension then for reacting the reactants by at least one with the mixing vessel, preferably as heated premixing container, indirectly or directly connected, heated reaction tube passed under pressure and the sodium aluminate solution obtained is subjected to atomization drying, the gas outlet or steam outlet temperature of the gas used in the atomization drying being at a temperature of 130 to 190 ° C., preferably 140 bi s 170 ° C. 2. The method according to claim 1, characterized in that that the reaction tube to a temperature of 100 up to 160 ° C, preferably 115 to 140 ° C represents and the sodium aluminate solution before Spray drying to a temperature below is cooled to its boiling temperature, preferably abge by 2 to 15 ° C below the boiling temperature is cooled. 3. The method according to claim 1 and 2, characterized records that a pressure of 1.5 in the reaction tube up to 10 bar, preferably 2 to 5 bar, more upright will hold. 4. The method according to one or more of claims 1 to 3, characterized in that the pressure in Reaction tube through an inert gas pressure or Air pressure in the closed mixing vessel, preferred wise nitrogen gas pressure and / or by a Pressure increase, preferably by at least one arranged between the mixing vessel and the reaction tube Pressure pump. 5. The method according to one or more of the claims 1 to 4, characterized in that the throughput the reaction mixture and / or the Na formed trium aluminate solution through the reaction tube more than 0.01 kg / min, preferably more than 0.5 kg / min,  is. 6. The method according to one or more of the claims 1 to 5, characterized in that the atomization exercise drying, preferably sputtering drying, with post-drying, preferably Fluid bed drying, combined or the fluid bed spray drying, preferably Sputtering drying, is connected, the fluidized bed drying at one temperature (depending on the desired drying degrees) of over 170 ° C, preferably over 190 ° C, is carried out. 7. The method according to one or more of the claims 1 to 6, characterized in that the implementation and / or spray drying without involvement formation of additives and / or stabilizers is carried out. 8. The method according to one or more of claims 1 to 7, characterized in that by the at the atomizer drying used the sodium aluminate solution formed in an angle of less than 65 ° (related to the Axis of rotation and measured from the axis of rotation from) atomized and using a hot airflow that is ring-shaped or helical around the atomizer disc led to the bottom of the container is swirled and dried. 9. The method according to one or more of claims 1 to 8, characterized in that by compliance an increased blowing speed of the hot air  or the hot inert gas, through the edge, bead or ring-shaped profiling of the atomizer disc be, by increasing the distance of the side wall from the atomizer disc and through the distance enlargement of the atomizer disc from the container soil less than 30 wt .-%, preferably less less than 20% by weight of that from the atomizer disc leaking sodium aluminates (calculated as solid fabric) on the side wall of the container or troc impact container. 10. The method according to one or more of claims 1 to 9, characterized in that by the at the atomizer drying used wipe the sodium aluminate solution in one win kel from 25 to 140 °, preferably 35 to 80 ° (be pulled on to the axis of rotation at an angle of 90 ° arranged rotation plane) is thrown away, using an atomizing disc which a bead or ring-like edge profile points and outlet openings or atomizer openings on a curved or profiled inner surface che in the edge or in the inner surface of the bead or has ring-shaped edge profiling that by Use of a dry gas flow or hot air flow the hurled and sprayed Na trium aluminate solutions from the side wall of the Drying container distracted or largely abge steers and at the same time swirled, the Distance from the side wall of the drying container to the atomizer disc is larger than half the radius the atomizer disc, preferably larger than that Radius of the atomizer disc, is.   11. The method according to one or more of claims 1 to 10, characterized in that the residence time the reaction mixture in the reaction tube is greater than 10 s, preferably greater than 20 s. 12. The method according to one or more of claims 1 to 11, characterized in that the disks spray drying at a speed of the Atomizer disc from 15,000 to 25,000 rpm, preferred as 17,000 to 20,000 UmP, is carried out. 13. Device for the production of sodium aluminate with the use of an atomizer dryer, atomized by the sodium aluminate and dried is, preferably to carry out the method according to one or more of claims 1 to 12, characterized in that it consists of a mixture barrel, preferably from a heatable, with stirrer and feed lines for the reactants ver see premix container, at least one with the Mix premix container directly or indirectly those, preferably helical and as a Doppelman telrohr trained reaction tube and at least one atomization and one downstream Dryer exists. 14. The apparatus according to claim 13, characterized net that the mixing tank out as a pressure vessel forms and with supply lines for the inert gas supply provided and with the reaction tube beginning immediately bar is connected. 15. The apparatus according to claim 13, characterized net that in the reaction tube, preferably between  the bottom of the mixing tank and the reaction tube initially a pressure pump is arranged. 16. The device according to one or more of the claims 13 to 15, characterized in that the atomization exercise dryer directly or via a pipe device connected to the reaction tube end and / or a cooler before spray drying device and / or its reaction tube end is arranged. 17. The device according to one or more of the claims 13 to 16, characterized in that the night dryer, preferably fluidized bed dryer or the fluid bed dryer, the atomizing dryer is connected downstream. 18. The device according to one or more of the claims 13 to 17, characterized in that the Zer atomizing disc used atomizing disc NEN at an angle of 25 to 140 °, preferably 35 to 80 ° (related to the angle to the axis of rotation rotation plane arranged at 90 °) Edge and / or a bead or ring-like edge has profiling and the outlet openings or atomizer openings of the atomizer disc the curved or profiled inner surface in the edge or inner surface of the bead and / or ring Edge profiling are arranged. 19. The device according to one or more of the claims 13 to 18, characterized in that between the Start of the reaction tube and the bottom of the mixing vessel or Mixing vessel outlet or the pressure pump  Pipe connection for the introduction of inert gas and / or air is arranged. 20. The device according to one or more of the claims 13 to 19, characterized in that in Zer atomizing dryer or atomizing dryer container ters at least one connection for hot air or hot ßes inert gas, preferably in the upper container area, is arranged.